The present invention relates to the production of the receptor binding domain (RBD) of the Spike glycoprotein 1 of the SARS-CoV-2 in mammalian cell expression systems, and the successive method of purification thereof. A recombinant plasmid containing the coding sequence of said RBD is produced and transfected in said mammalian cells, for example, Expi293. A high level of the protein is secreted in the medium and subsequently purified using the N-terminal tag, that can be removed by a specific protease. The present invention also includes a recombinant expression vector carrying the RBD gene, the successive methods for protein purification, the strategy for establishing a stable cell line producing the RBD, methods of use of the recombinant protein in formulating a pharmaceutical composition, including but not limited to, vaccines for preventing SARS-CoV-2 induced diseases.

The present invention relates to the production of the receptor binding domain (RBD) of the Spike glycoprotein 1 of the SARS-CoV-2 in mammalian cell expression systems, and the successive method of purification thereof. A recombinant plasmid containing the coding sequence of said RBD is produced and transfected in said mammalian cells, for example, Expi293. A high level of the protein is secreted in the medium and subsequently purified using the N-terminal tag, that can be removed by a specific protease. The present invention also includes a recombinant expression vector carrying the RBD gene, the successive methods for protein purification, the strategy for establishing a stable cell line producing the RBD, methods of use of the recombinant protein in formulating a pharmaceutical composition, including but not limited to, vaccines for preventing SARS-CoV-2 induced diseases.

Nucleic acids encoding norovirus VP1 fusion proteins and VLPs comprising the norovirus VP1 fusion proteins are provided. Methods for norovirus VP1 fusion protein and norovirus VLP production in plants are also described. The VP1 fusion protein comprises, a first sequence encoding an S domain derived from a first norovirus strain, and a second sequence encoding a P domain derived from a second norovirus strain.

Nucleic acids encoding norovirus VP1 fusion proteins and VLPs comprising the norovirus VP1 fusion proteins are provided. Methods for norovirus VP1 fusion protein and norovirus VLP production in plants are also described. The VP1 fusion protein comprises, a first sequence encoding an S domain derived from a first norovirus strain, and a second sequence encoding a P domain derived from a second norovirus strain.

The present disclosure relates to compositions and methods for treating or preventing a disease or disorder of the brain, spinal cord or central nervous system. It is described herein that an immunogenic composition which induces a CD4 T cell immune response induces permeability of the blood brain barrier, and allows for the access of a therapeutic antibody or agent to the brain, spinal cord or central nervous system.

The present invention generally pertains to methods of quantitating therapeutic proteins co-administered to a subject using LC-MRM-MS. In particular, the present invention pertains to the use of dual enzymatic digestion to generate unique surrogate peptides allowing for the accurate quantitation of co-administered therapeutic proteins using LC-MRM-MS.

Degradation compounds include a cyclic cell penetrating peptide (cCPP) and a degradation construct. The degradation construct includes a degradation moiety and a targeting moiety. The targeting moiety binds a target protein. When the targeting moiety is bound to the target protein, the degradation moiety mediates degradation of the target protein. The cCPP facilitates transfer of the degradation construct into a cell. The degradation compound may further include an exocyclic peptide to enhance endosomal escape of the compound or degradation construct once inside the cell.

HIV-1 Env ectodomain trimers stabilized in a prefusion mature closed conformation and methods of their use and production are disclosed. In several embodiments, the HIV-1 Env ectodomain trimers and/or nucleic acid molecules can be used to generate an immune response to HIV-1 in a subject. In additional embodiments, the therapeutically effective amount of the HIV-1 Env ectodomain trimers can be administered to a subject in a method of treating or preventing HIV-1 infection.

Complexes of coronavirus spike proteins, as well as fragments or mutants thereof wherein the fragment or mutant thereof at least contains a receptor binding domain of said coronavirus spike protein, with linoleic acid, or a derivative or a salt or a mimetic thereof. Methods for producing the complexes of the invention by incubating coronavirus spike proteins with linoleic acid or a derivative or a salt or a mimetic thereof. . In vitro methods for identifying molecules which have therapeutic potential for diseases caused by coronaviruses by contacting the molecule with a coronavirus spike protein and linoleic acid or a derivative or salt or mimetic thereof. A method of treatment of coronavirus infection by administration of linoleic acid, or a derivative, a salt or a mimetic thereof to a subject in need thereof, by administration of an aerosol formulation or dry powder formulation to the respiratory tract, preferably by nasal administration.

Complexes of coronavirus spike proteins, as well as fragments or mutants thereof wherein the fragment or mutant thereof at least contains a receptor binding domain of said coronavirus spike protein, with linoleic acid, or a derivative or a salt or a mimetic thereof. Methods for producing the complexes of the invention by incubating coronavirus spike proteins with linoleic acid or a derivative or a salt or a mimetic thereof. . In vitro methods for identifying molecules which have therapeutic potential for diseases caused by coronaviruses by contacting the molecule with a coronavirus spike protein and linoleic acid or a derivative or salt or mimetic thereof. A method of treatment of coronavirus infection by administration of linoleic acid, or a derivative, a salt or a mimetic thereof to a subject in need thereof, by administration of an aerosol formulation or dry powder formulation to the respiratory tract, preferably by nasal administration.